Loading...
BRES2016-0415 Title 24BUILDING ENERGY ANALYSIS REPORT I PROJECT: Townsend Residence Lot 240 - 80-210 ViaCapri = IF27 ' Z -*2- �a�i c La Quinta, CA 92253 Project Designer: Stracts Architects 550 S. Oleander Palm Springs, CA 92: (760) 636-8951 Report Prepared by: A CITY OF LA NT BUILDING & SAFETY DEFT. AppRaVE° FOR CONSTRUCTION. n'DATA ilp: I =BY �- Tim Scott Scott Design and Title 24, Inc, 74-818 Velie Way, Suite 8 Palm Desert, CA 92260 (760) 200-4780 Job Number: Date: 3/16/2017 7- EIVEE MAR 2 120117 CITY OF LA- QUSNTA COMMUNrY DEVELOPMENT The EnergyPro computer program has been used to perform the calculations summarized in this compliance report. This program has approval and is authorized by the California Energy Commission for use with both the Residential and Nonresidential 2013 Building Energy Efficiency Standards. This program developed by EnergySoft, LLC — www.energysoft.com. I EnergyPro 6.7 by Energy5oft User Number: 6712 ID: 10� N1 TABLE OF CONTENTS I Cover Page 1 Table of Contents 2 Form CF-1 R-PRF-01-E Certificate of Compliance 3 Form RMS-1 Residential Measures Summary 17 Form MF-1 R Mandatory Measures Summary 19 HVAC System Heating and Cooling Loads Summary 23 Room Load Summary 29 Room Heating Peak Loads 35 Room Cooling Peak Loads 41 EnergyPro 6.7 by EnergySoft Job Number: ID: User Number: 6712 1 r d U. n U 0 O 2_ LU O E Jm Z F- v w U a v Cl) LO O p N N ID to � o c n R E d o. U rn c r o W c Lo U m W M f0 N N O R "' O O y O L^ in 7 O O G> d m m N co rn V c O `0 Q C d o m Of R y N N � O C1 c p E a R c E U) O O Z O O N Z ,N v w R C C L Z R R m E O Z E O C 0 0 Li 10 07 r M O P Oi r O 0 O r r r N Q R U R cEn tq O N 0 T N _, C 000 E C O c Q R N C Li U N N V 7 co LO N T N m Q Q O N N C N N CO J J 0) U Vi Z C0 L0 Z Z '0 cE a cc . ` P 0 fl U N R QZ R J 0 c0 a m U) m aR LL O R R v m y a c o IL LL U) c IL p U 0 C C O N u3 U _ m a zz 12 a a O LL z aJ W Z N M V 10 00 O N �O aO O w O O O O O O r r r r r N d a 0 a W 2 a O G. a R U W U R O C O CO) d a 7 CO) v L G7 a c N U) w W 2 a N d u R a c 0 R u W d 3 a o (D O 'v c c 3 R O) L C U) N U) w a m d d w W N o � ` r O IL (o E d 0 O a 7 °� v E w O U m d O O 3 0. a V! d c c E 0 c c tm U, = Mn V! J m H H w a! W z Q o 0 0 J a 2 O L) c N E 0 0 a Z ? o co CD'u\i � E � m o � c c O7 a c R LO CD m o o n Cl N M O O O O R a E O c N d 00 O a O� W o0 0J O N Q O d a0 N O 'ItO M a O co a w co m c� W z w C .y N p f0 0 ti O OOi N O R 0 N O 'It M a c �R. L r T N Q) c c O O .0 o io m v d O c 2 U c 2 a W > r U p R R R O. y CLcy N a IC_6 ` L Q a o w U V c U H c W U U v a 0 Ln K w 2 0 0 0 0 0 0 O O m 0 eo z N U1 E z c m 0) Ln m 0 N 0 0 N ra M cu 0 O v K r O LL U cl O v O N N a 0 �U HO E E X (0 j) U w 19 C N N C O O V N J a cc fR (D x E m Z ii 7 O. N N a (0 C O Q N T C �a 7 a E O U L O N cu c6 E N D_ T O) N N a N N a O E N rn C N E O C 0 a C 0 N !C N iv lz U) x W x a O r U a O w au w O 1 N E 3 O L � —1I! y 0 C fl y C O + O :. V w N N U C N w i O } 00 C. Z E y C O O E c O C •cc Q N 0 LL O V! o= y U 0 y N E C 0 0 :t V7 N W ind '°_2 � M> 0 r� 0 io >- 2 EE �U 3 rn '(n W�m.d+Q W W c c7= = p c c '� • a O >,E W rn 2 u m2 O N a�0 m rn C w w N 0 -00 -0 rn_ Ci C C '� •y d a ii C d Z W L p '�2a 0 ,O 0 i O C 7 C T C a fU LO N cO >, 16 m N c o' j > co T� rnco C C W C (0 O) N a c CO N a) 0 0 ci a U N c6 O C C f0 y C N O G E c O U a C °a N 0 N 'C .r_ O O U 0 L U O� O C 2 C E A a= a:a N = o •O_ O T E N rn O CD U C C c n m n E f° U 't N a E 0 L_ C N _ to � L N U a � 7 C O N c a O T O N O M E W N � u m 2 m m 0 w cc O N 'Q C N U, o C a U O U T rna C Cc0 ; O , T p L E w N O Z N C C T Y C z YaC �0 C (7 0 7 U N W G N >, N a' W •N 0 w N 0 N CO W-CF- U y �c R O w n O to Q U E io Z= C O y ai is E �_ C Ul > p O T > co a o o O W = E� 0 Z y N C O N lq O O O N iU N L M E Z r O 0 E N O O a O 0o n O C � vC E E 7 Z Y C p N 3 � .2 o w w a 0 c '� 0 O a E z m Q `O O ( O LL N o O a O O C C O O 0 o Z C o 0 O C U m N � r O 0 LL z 0 U z fA O O N W E a' N L Z N W 0 C LL p N Z 6 a 3 0 Z20 0 J � en m (' cc li u1 n7 O C) 0 0 O ai a N v 0 t 0 O. ai v CY r lJ'1 0 N Ln 00 0 1-4 LL U c 0 OJ 0 o_ z N E f/f a o � R d x L d f6 r d T 1D C Cn (n (n (n fn (n o y 2 2 2 2 2 2 2 0 0 0 0 0 0 L d O7 c t o f) N rn rn rn rn rn rn x Q R 5D Q G L N O ' V f0 LO M 1 O n CO N LL to G1 c O N a m z N Cl) ay .� R (O d h E N 'cyp U U o (O n M > Q Q U Q Lo U 2 x a a� m a� 0 o a� a� 0 o 0 N C O C O C O C O C O c O c m c =o C ij C v C a C c =o C N o U o U o U o U o U o U z O E E o Q z h o R •Co 0 T 0 0' C C E -00 N R O C O O N .0 N LL z W z O N U c U) F ui W U <0 U Ul 72 O d Ln LU 0 0 0 00 0 0 0 m 0 N O Z N v E Z c 0 M v Ln rci O N a -I m O r CD O N R U N a�+ 12 ai l7 0 O O K v V n Ln C) O Ln 00 O LL u 0 0 0 a cc u �U t 8 W c U -°o Z u) a � J a O a U C: LL 0 fp O F °) R Z w H v Lu U (L Ln U) T R C Q V N N C 0 .1p Q c.) M d 0 C O �a U a1 V O O O O O O O O O O O O O O O O O O O O O O O O O 0 O W 0) CD W W mO O O m a) mO O O O m 0)O O) O) O O H N La v Q o Ln MMO N CO O) Cl)C 000 Cl)n 0) 'oMO LOO M � O C C_ Ny v 0) O W N W t N o0 Co O) (O (o N_ (O N M N O N O O aO O O O co tD 00 N O) O a0 N M O) W O h N r w w N N O Y7 N N N O Q (`•) Lo (O to O) M f0 M (O M M 'ch M (D O O n N N O O O C N c6 _Q) O N (0 _O O N 0 N 0 N R D1 O N (p O) O N N 0 N N y J Co of U-J m of Li n a a a J CO CC LL J m E LL O J 'IM a •` N N N N N N N O L O Lo )o 0 (A lit 0 O O O (o 0 w Lo Lo (O li) O LQ O O E (2 N M N O O W M N M N O Q) M o0 •N N M N M N N M N M Q (d (o co (� (o (o co (� d m cfl (o (o co co uj co (fl m (o co co co cfl (fl m x x x x x x x x x x x x x x x x x x x x x x x x x o •� N N N N CV N N N N (V N N N N N N N N N N N N N N fV N N N N N O) O) O) O) M W T O T GD O) Q) O O oO O) O) Q) O) .6 T Q) O O o0 O O O O W 0 «`� CC CC CC 2 a C R lC R (6 O N R (6 (6 O (6 cC lU f0 O f6 N (0 (O O N f0 <0 c0 O N f6 N R c6 N N N N CO N N N N M N N N N (.�j N N N N (.Mj N N N N M N N N N N O O O O O . y9 . �0 U N N N N O O O O O N C ( 5 5 N .9 .0. N O O O O O •y •N •y •y •N _U U U_ U_ U_ N N O O •p -0 -0 "C -0 N (0 R cc NE E E E E U U U O O O O O 0) m m 0) 8 c c c c c 9-0-0 N N N N N — — N N N N N N CO M M M V V LO fn U E — — 3 o O m m m o m m m — U — m mm— °o O) °o N `° N N ° o m ao o 2 Z z U Z w w oo z w (n w w 3 w w � z w w w of M Z UJ (/� Z M Z (n L7 Z Z (n Ln z Z (n f`O1 M M U) CY CC CC CC w D CF O Li � Ln � M W O U N U � c-I M 0 0 N Y v ai O > N O Ur dY Ln Q = Q w w 2 cc: N fD N <2 0 A 0 N 0 0 0 C. 0 0 0 0 0 0 m m N 0 Z N v E z C 0 bD v r LP) 0 O Ln 00 0 s l_J O i �y L Q CL cr 0 0 O W m m Ln O O O coM N N N (N0 NO O L � C m N O Q' Q LL N N N LO N N M (O CO (O U (O f0 f0 R N N N n X N N OD M R � U o `o 0 o LL N N N M `- Q' Q' Q' Q' Q' O O O O 0 O O O O O a a a a a C C C C C N N N N N a C N N 0 �a m o 3 N 00 Z M w O O 00 O O O O O O 0 c Z Z Z Z Z Z O U `d R m O c Z Z Z Z Z Z R R d V C 1' 00 00 00 00 OD OD O W O O O O O O 0 O O d V C 0 y O O O O O O 0' O O 0' d N 0: M M M M M M O O a a a a a a d d d d d N d r1 Q (6 (0 i0 (0 iC fC c a? o d m o O N O o (D m c N 7 049 O O O O N 00 0 O 00 � C Q U U U Q U U Q Q a a a a o 00 d ;g d N O` .N N R a O A U 0 0)C U - U U U N Z U U Q Q Q Q Q U Q U U) F W U U v O LU N K m E Y 0 c 0 0 0 0 0 O m m r- 0 z N v E Z C O m bD r' i O N m 0 0 0 Gi v v c 0 O n Of Ln r-1 O N C14 00 O s .4 V 0 t O CL CC U W o U _0 z 'Fn Q N J � a O LL U � O W y H E �z W U a 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 75 7 D a) a) N m m N N N a) 'O a) 'O a) 'O N a) a) 'O a) N 'O N N a) a) N "O a) '0 a) a) a) N a) a) R - - - - - - - - - - - - - - - - - - - - - -0 i C C C C C C C C C C C C C C C C C C C C C C C C C C C C C CU U O U O U V U U O U O O V U U O U O O O O U O O O U O U U U U U U U U U U U U U U U U U U 0 0 0 N W U) U) N N a) N a) N U N N U N a) N a) a) a) a) U7 N C w N C N C w N C w N C w N C N C co C N C N C 0 N C w N C N C N C N C N C N C w N C N C N C N C N C N C N C w N C N C 0 N C N C N C Oa O O) O O O O O O a1 Q1 D1 a1 O O O O O O O O O O O O O O O O O O O O O O O O O O O O ao u 0) rn rn rn m m m rn rn rn rn rn rn rn rn rn rn rn rn rn rn rn rn rn rn rn m 0) rn o io V V V V v, �t v v, et v, v v v v v v, v, v, v, v, qt � a v w 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 C. 0 0 0 0 0 0 0 0 o 0 0 0 0 o co 0 0 0 o cn cn v o 0 o o 0 o o o 0 n V O u-i N O 47 O N N w O O O N O f0 L N w w O O O N N N N v V N ItCO Cl) V co M N v V N f0 O Q � d ,�i!llllilllillllllillllilllli 0) a �U�llil!Illilflllllillf!!!!lII t N N tl7 �O In O O O O O O N in N 0 Qi N N N N N l0 N 0) 0) 0)O N N Y7 lI7 l{7 NL In 47 l{� N N N N N 1 'T w 1 11 v v g v CU L L L L % % L L C C C �� �v L O p O) O O O O a 01 O N N N N R m .2 .2 P v v of v LL v a) a) a) a) N v v a' of zzi zz_ zzi ih p C _ N N N N 0_ N N m m co N N N N N N VLLl M m z z 3 3 z z 3 z z z z z w w z z z z w w W W�� C/) U) 3 N m G. o o a 0 o a 0 o a 0 o a 0 o a 0 o a 0 o a o 0 a o 0 a 0 o a o 0 a 0 a 0 a 0 0 o a o 0 a 0 o a o 0 a 0 o a 0 o a o 0 a 0 o a o 0 a o 0 a o 0 a 0 0 a 0 0 a 0 0 a 0 0 a 0 0 a C_ C_ C_ jC_ C_ _C C_ C C_ C_ C_ C_ jC_ C_ jC_ jC_ C C_ jC_ C_ C_ C jC C_ C_ jC_ m w Y = U LL W ❑ U M Z J to Q N��_❑ H (n � c o m rY c� 2 U [0 co Q ?: Z Z �n Ln FLn W m w o U N U � l0 m 0 r, 0 N R a aJ Y •• R a/ N � C > a O d t N O = O_ w = cc 0 0 a 0 0 0 0 0 0 0 0 0 m m O Z N a`) E 7 Z c 0 ar of W 40 E z H v W OL U a 7 7 7 7 7 7 7 3 75 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 N N (U (U N (U Ul (U lU (U (U N N N N (U N N N (U (U N N N C C C C C C C C C C C C C C C C C C C C C C C C U U U o U U o U U o U U U U U U U U U U U U U U N N N N N N N CU N CU N C0 C0 N C0 CU N N N N N N N N N N N N N N CU C C co C C C C co C C N C co C N C N C in C C N C N C N C fn C N C N C N C N C N C co C 0 O O O) O O) m O) m O (3) O (A _W (A CA CA W W O m O W W O O O O O O O O O O O O O O O O O O O O O O O O CA (A (A O O (A O W O C7) CA m O) D) O O) D7 O O O O O) T m 0 0 0 01010 0 0 0 0 0 0 0 1 0 0 0 0 0 0 C) 1 0 0 0 0 0 0 O r O C C) Co O o M O m C! C 1 O M O CM CDO O � `. 0) O (6 CCU N U� N Cn N CC) N U� N O N O N o O O N Cl) i- i-- e- — r — llil�lllili111!111IfI11 11 1 1 N 1]! 1! l I f E l E l l l M M M M M M M M N M M M N N N I N I Cl') M N N N U U U U U U U U p) O O O O p7 d N O) O) U U O n N n N .W.. LO > W Z W Z W Z 0 Z Z Z W Z W Z W Z W Z N � m m Z (n (!1 Cn (n In (n 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 O a O a 0 a o a O a o a O a O a O a O 'aa O O a O a O a O a O a O a O a O a O a O a O a O a O a S_C 7 jS_C 7 SSC_ S SSC_ S SSC_ S jSC_ S yyC_ S yyC_ S SSC_ S SC > SyC_ S SSC_ S SSC_ S SS_C 7 SSC_ S yyC_ S SSC_ S SSC_ S SSC_ S SS_C S SSC S SSC_ 5 yyC_ S C_ SS S x 3> o Lo 2 z a 0 ¢ ") Nn of v a a LS C U) H C W � U O m O U O c w O N a N 2 d cq o O Of ` N w Q = N N M 0 0 N o� 'v M •7 N m o c z N ) 0 0 Y f�0 N 0 0 0 0 0 0 O Cn a) T- O 1�6 o CO v Z z lb N N E Z 0 0 N � O 0 � O m O cr Lfl 0 N 00 a cr u C 0 N (V 0 O cr E X (0 U (6 � w O N C U) N C (6 F- O N Q O J cc T 3 y R {E -0 V d R E c Z ❑ w w O �a LL .V 7 I �a c 'U _ W U Z Q J a 2 O U W U Z Q O IL W a J Q H Z 0 Ln w cn >>' � � c U Q W N a N Z N J � ~ a 2 m o U cLL Q- O N H d ❑ MC lZ o � •R C,1 O U a U d Q D O O r O m a' M r (n O O C � LL O. � L _O C a o 0 L C o 0 0 O a O O r O m J O O N O O Q C LL J o � a o 0 H L c a m o 0 0 x t0 o CL � 0 0 c (n O a) am V' o 0 N W a� c O (0 C d d J O N > W O M O N O O 0 L O a N O � N 0 z o LL c r Lo Z Q Z Q 2 W O =1 C1 Cf b1 G 01 0) �,� U Va y vat, Va C) m U� U� �, a Q = �, a c, V RU: j er t0� 7 R er (0 Cl)N� I° � e I° z z R Nc Gl T X d� N•\G (0 \ C N (07.0 C 1p X O N•\G (0 X O r N--CC R Nz R CO N-C M Nt (a 1am co J OTC � C\ Cm� G a0 G N Q + N yE N � y C q- N° Ca O a a °O°O° O 0 °Gl _a0 G °it Naa U .Lf. w E E L ` LL L 0)O lL i N N O� N O D� L N O N `o`oS �UW '>o0 moo moo U�� QUO UItZ UOrz UZ� U�� U�� U C LT N 7 Ln (O V v p (�O O O (o (O co (O (O O «? O O O O O O O C. O N R U C M N C C C C C O G C C C C C C 12 N N N N N N (n (n n N N N y 7 U U In � to 7 N 7 n 7 N 7 U w0) O O w C 0 °U - O C C 0 °U O °U O 0 °(i O °U O °U O C o E w (o LL a c `°° � c -o c ° O U O U U U 0 U N N U (4 X X X x X X N N N N N N a c' c c c c o T ~ U U U U U U U O LL M C N N E N N w N N N E o u E E m E E E E E .�. m LL 2 LL LL 'D R LL E2 LL m LL m LL ca LL LL C O O O O O O O O ° d O 3 (n O 3 O O O O O N U O CD �° V N O Of O ofw O O a' O af 0 d N N -§ (p U C C6 U U U U U tO O (A Q U LL Q Q Q Q Q Li U v 7 w fq zcu d (O `r U m x O « 0 U Z c y R f 0 Cli O a) N wo N rn my ° aO wQ 00 Uo 7 7 r O �p 0 ofU LL' � U a' U a' 0 O fn LLJ (q 0 U ¢ ° 0--�_ U Q Q Q LL O V N ¢ Q 2' Q a O C_ ui w U U N O a` LU w 2 0 0 0 0 0 0 0 0 m 000 0 Z IfIf v E 7 Z O Y M v Ln 0 Ln co O u 0 v i 0 O ol U1 a x i N u (6 65 O � N � C N C co 3 t � � N O O J T C. ci C. E v H 2 cv E c Z 0 O w O m jy V 0 CL W (.> Z Q J a 2 O U W U Z Q O LL w W a J Q Z W U D F U) W � � C U Q W � U -o N Z N J � ~ a. -0 N O Uc a LL O I— w w d 0 :E C Z O � � V U a u o Z Z Z Z Z 2 c O �p LL o0 a0 OD W W O D O O O o O Q/ d a m` U t M 41 d 7 In O > C O C O C O C O C O Z Z Z Z Z 3 r 0 rn W L al O N M O l0 co O E W a n C M � O (NO ` Q m a? 0 m N C N O •N 043 0 N E 0 rn 0 N co V to a O Z Cn fn Cn Q' O O J LL m a J e c O o o � o LL a O Ln LL U m 0 N d is d x N O p N d a E d) 7 Z Y A J L a m '5 O a p C W � C Q O LL' O Z o L ad. 00f x � r � N N 2 L 2 � m c o N p � CL T c J as M c O LL o � �a O O a a3 � c O o Z �a Cc 7 O a N O H E y _ Q N N z O a a U c LL O � m W C0 c E as LL' W 2 p C p 2 0)C N W O W Z W (7 Z O m _ O N Z w x it W Z N (n U1 O C J 0 o a o c LL N L O C O O d o W o c c F 07 L C _ O A � m O O a O O C LO O .0 u C lL V U.)C (0 E) O d W c W 0 E � r- Y c H () d a m HT O M O Y fn c Fi0 E U) al a F� N d N o E d w m L Z .O. A of x co A W O 2 Q z 2 � N Ln F � � m w O U N U r-I 0 r 00 N 0 v v '0 a d Y (A O p_ w a) 2 cc 0 0 0 0 0 0 0 0 Z N v E Z c 0 12 tw Of v v LA 0 Ln O LL U C 0 0 O a s v o � LL w a, O CD a) LL LL U a E W U Z Q J IL 2 O U W U Z Q O LL w W a J Q F- Z W Q N W cn T M U C U Q W N U -O N z (n a) J � ~ a a 2 a O U C Q- LL O U) a) LU ui a) E M 0 Z a •°) u W O` i6 U a U N M 7 tC) (O m E E E E E E E :: w? a) 2 w a) Z U) C/) (n U) U) U) w C 0 C o C 0 C 0 C 0 C 0 C 0 7 7 7 7 7 7 7 a :2 �2 a U) N N_ N_ N_ y N_ N_ a a a a a a CD r C N C co C C LO C (O C LO E Z LL LL LL LL LL LL O U U U U U U LL 2 2 2 2 2 2 O N M d LO a7 E O Z ate) C ate) C aa)) C ate) C ate) C aa)) C !r O 0_ O 0_ O n O o_ O a 0 n C p p) O U O U O U O U O U O U C O) m 0) O) 0) m O V O O O O O O U U U U U U N N M (O O E m c C c C c C c C c C c C Z O O O O O 0 E E E E E E U U U U U U C +s O7 C m C O) C O C O) C O) C a) d f9 a) N a) ca a) cC a) (a a) (0 a) 2 2 2 2 2 2 rn C rn C c C rn C o) C rn C O O O O O 0 d U U U U U U a s a m0 a a a maw) a mm E m0 O C" m0 (M m0 M IM C" O V) C T N C T N C T f5 C >. N C T w C T aOr N f0U NU) i0U NU) i0U) NU) U) 2 2 2 2 2 2 a`) a`) a) `a) a`) a) U O O U U O y LU E M a) LO (° N O w a U H U U O 2 p) O a C 04 f!) O ) T U N U M U L r Q Z U) Q Q U O N x x 2 = J 2 H Z O U W Q a Oa) u C Z E W D LL Q 0 W D LL Q 0 W D LL Q o W 0 LL Q O W 7 LL Q O W 7 LL Q o U N U (0 U O U N U N U (0 ` w C w ` w C w ` w ` w w m m m m m c U c U c U c U aca77 U acat� U a a a a a a N O a w w 4= w wr w LL LL LL LL LL aLLJ m C m C m C m C m C m C 7 LL 7 LL 7 LL 7 LL 7 LL 7 LL C U c U c U c U c U c U N M V In O m C O m C O m C O m C O 0 C O m C O E E E E E E E E w (6 Z U U U U U U CL a O) C O) C O) C Q) C O) C C F�- N N N N N N Z 7 Z Q W 2 U x s F LU W U U d of uj O O O O 0 0 0 O O m I- r- r 0 Z N v E Z C O 12 W of Ln O M O n O N rroo a Y fO al 0 O a d r Ln 0 Ln 00 O K u C O a) CL 0 Of LL R U a E X O U N � w O � i N C C c� 3 i N ' O O J c0 ai ca E F- x � d O E Q � C Z 0 d O N LL 7 � a _ U c w U Z Q J a a O U w U Z Q O LL w a J Q F- Z w a Mn w � cu � � Q w U -o N ZQ '(n N J � ~ a o m N OU c a LL N LU ci m C Z w. (a V O V O U a U C O C 0 C N C N C N C 0 C N 0 0 C O O 0-0 C O O 0-0 C O O (a.0 C O O CL O C O O 0-0 C O O d 0 n� w E U O y E U O y E U E U O E U E 00 >w Um U U U�` UO�` UO `d � vt c `o ��O c c rrcp c c c 2 U o000 U U U U 0� U a a a a a a p O 0 0 n ca n co n (n n co n N a co p _ Q N N N N N N E 0 U m cn m c cn c cq co tm c cn (n d O = C 0 c UN 0 0 N 0 N N 0 0 T 16 Z Z Z Z Z Z 0 O N w C w w c0 co c0 c0 0 (0 co V C a� w w p w N N N N N (N m Q a C a a a a a FT � 0 U U0 0 � U 0 0 U / H (n U) U) U) U) U) N O W a N M c0 (0 Z C C C C C C O �' E c. E a E a E n E a E °n E z J p Z U U U U U U O OC1 m C7 C C7 U o 0 0 0 0 0 U U U U U U U 2 C d (D p N M 0' t 0 0 Q Q Q U m y �� ct Qf of W w w w a w a a a a N N N N N N LO p m Q) of W of Q) 2 w of Q) R' W x > Q' w w N N N N N E C 7 0- .7 a- .7 5- .7 a .7 5- .5 5- 'E a, of CD of o af 0(u of af a� x > N m H cy p 30 O O M O LO O M O to O M Cl) (`•) Cl) 'C a 0 o 3 3 Z O Q 2 o 0 0 0 0 0 0 0 0 0 0 0 w > N N O N N N N L L L L L L N w y E C c C c C c C c C c C c C9 G °a n n Z Z a E n E n E E E E 0 U U U U U U O rn 0) rn rn rn rn V c c c E c c 0 U 0 0 0 0 0 Q U U U U U 2 �n F w w U U v 'O d Ln x Ln m cN-1 m O 0 N i+ f0 a v 0 c c°17 i O a Of V LA �i O Ln W O u c 0 0 a 6 LL LL U m ►I O N d 0) a. E X i U (6 O � N C O a) � N C R F O N O O J � R CN Ca C w a1 R E a R C Z 0 y O R LL T Cf 7 R Q- W U z a J a m O U w U z a O LL w w a J a z w 0 w Vi y W cu a> c U Q W N U -o N z (n a> J w F- a. a ii 2 0' O U C: Q• LL O y Q1 w E o R C Z y. �+ R � �y w R U a U E E E E E E 00 (n+ w i+ >. cn V5 >. Ct) N >, c N >. N N c N co V5 G cm w •� C;6 O V) c O` c O` c O N c O N C O y N< MDN y A y 4 w LO N (O W ❑ ❑ ❑ ❑ ❑ ❑ Q a a a a a C1 7 O N O O CO O O 0 z z z z z z CL T m 0 O U,(0,7 O 0 U U U U U _ U J Q Q Q Q Q Q V 7 0 4) 7 0' 0 C 0 OD 4u 40 40 OD 40 7 y C a a a a a a m N V) V) V) V) V) co aRi c c C: c c a O J m (C (0 m c4 N 4) 4) 42 4) 42 4) m m m m m m U) 47 U) U) C/) U) U U U U U U (D Q Q Q Q Q Q N O O. HT U U U U V) U N) U ❑ ❑ ❑ ❑ ❑ ❑ y W H >- U) N m (O (O E E E E E E z 0 a) a? a: am .2 D >. � >. U) >. � >+ U) >. U) >. U) m < E o 0 0 0 0 0 F, OR Z 7 7 ._ 7 ._ Q ._ 7 ._ 7 N Ln Mn N N N_ ❑ ❑ ❑ ❑ ❑ ❑ Q > Q Q Q Q Q Q o� d Y � CO c O J Q y a a a a a a •` d � d d � d a � d d z z z z z z N N N N N N d (77 .7 .7 .7 .7 (D O � 3 m O O O O O O O z Z Z Z Z z V N N N N N 0 7 O m 7 7 7 7 7 7 N N N N N N w- � O z O z O z O z O z O z In O O 01 v N N N N N N O y J O z O z O z O z O z O z > d Y o (y R ++ O O O O O O � 3 0 N C Y •m N N N N N N N R i J w Q Q' Q' Q' U Q cc R' w = a' Q' 7 > Z 13 O a U LL W > 4 v c a v N w L L L L L L (O E E E E E E z „ a? c m v'i v'i (n u'i cn v'i Z c C c C C c m O O O O O O 7 7 7 7 7 7 c W r 0_ W U U 4) E Y 0 O v Ln M O N m O r CD O N f6 a 4) 4) t 0 a 4) nr v v n IH O Ln (V 00 O LL V c 0 0 O a- d) s Y- LL U r O M d R a X (D N U O � N � C � N C R 3 i 0 � N o O J � R a� cu E w d R E p C Z p O y O v LL T 2 }7 r R Q• U = w U z a J a O U W U z Q O LL w w a J Q z w a W co i U a W � V U -o N J � ~ a -0 2 aci o O 0LL C o m W p `R c /Z w 17C a+ R U a U c w w w w w Y U L L L L L L w N M m CD o d c c c c c c > LL LL LL LL LL LL co w > > > > > > U- LL c.i W M O O W OD M 0 wo Ui N O L O O O O O O 3 a° C R LL C C C C C C L L LL LL LL LL w w m w U U m m m m A m C C C C C C L s L LL LL LL LL LL LL a U U U U U U N C C CaQ a0 rn rn rn rn rn rn CA In 0 05 0 0 N M V LO O d m LL N LL N LL N LL N LL N LL o U U U U U U co Z FLU > > > > > > co z LL 1 O U- LL V 3 C J w c L .7 Q Lq C! Lq Cf Lq Cl In C! Uf C1 UL C! 0 N N N N N y N O Lp Q t? t? <T <T l7 LL L d w z 0 c c c c c c V w w w w L N N N N LL N N N N N N w E N m v LO 0 > O m C C C C C C N z a' LL LL LL LL LL LL w U) N z LL u C O C V a W U U O O � ;Q �7 a� W 2 �w0 L v •� > O O d` O d o Cl N w Q2 W d a o m M (CDN LL C M a M 0 s N LL LL O Vl in N O al C O a o cc L LL m N O U CY N a — o o 0 0 0 0 0 0 w o o O m a Z LL CL y N 3 = a o U1 E a 3 E z 0 o LL o U C Eu Y VI ho Q a) nf Ln fh O cN-I m O r 0 N fa i+ v M d v O a (L V n Lfl C) O Ln 00 O CC U C 0 0 C n s r CD r LL G C) LL a3 Q a E x ch o N CO: N W C N L � 0 J E -g H 2 o E C z ❑ G d O ca LL T Q - U W V z a J a 2 O U W U z a O LL w W a .J Q z W a w 2i � � C U Q W a N U -0z N 2 J LL' F- a. -a 2 aai o O C C. O .. W W y p E c 1z d v O v a U a7 N 0 O C U o ca E C U 0 0 U c� 0 c L � w n O E O 0 m d a � c c m n �� n `m E ns oa w 0 0 N O a n o > o a) C n O U CD c = C N E 2 S" O w N ._ CL c J � N `) 7 io .0 w d0 •EE 7 Na�ci CD y w n rn N t O N 0 •7� E N w c N c C O Q � 0 w a U N N .m C0 - 0 = Y N i N c CD Ch O fn CavY O OO Lm," 0 O LU N P aUi N = o O� >O Ow wc O 00) m O o COo o tm a .Lo ` CL o a) m L rN a Eo o C C N O N O n U a) cm N N fC a] w w c a `80 a-iE o U ECD o v as o N o U a> m c -o 1° a� 0 m,�o a ° `7 _CD cvi 0Z6 w N w a E O zN 0 O N 1i N W =O � [L N w W H w w C C a) o M a a) W w N N Lm 'lC (n C O N z O Vi 7 N N O n N cL Z m N c O L N >` a_3 J Q Eo c n 0 O C p M J N f6 C W W oas N U U W co yc 0 0 p T >1 '�O N Zad . a ai m N H ns . L N 0) .� L Q Z O O Q. 7 J 'L" L,1 01 N Q. U O N Q rn d C C ...4 p) l6 l6 f' y o U N J o '� ,�+ w 0 U n N w co n co m E a� o ll.l U N z w U 2' U a) [] E C o i/l Lo O :° E a Z N c U) C m� r/1 Lo cO f° E C) c7i E QU a r- U w (6 N w E U aNi (0 OQ - QO 0 (� Q U a w O N fM F- U Cq Q U C_ H d' U U a) 0 cr LU IH In ci O rl m 0 0 N Y a) c 0 CL w V V Ln 0 N Ln 00 O v O 0 RESIDENTIAL MEASURES SUMMARY RMS-1 Project Name Townsend Residence Building Type m Single Family ❑ Addition Alone ❑ Multi Family ❑ Existing+ Addition/Alteration Date 311612017 Project Address Lot 240 - 80-210 Via Capri La Quinta California Energy Climate Zone CA Climate Zone 15 Total Cond. Floor Area 6,266 Addition n/a # of Units 1 INSULATION Construction Type Area Cavity ftz Special Features Status Roof Wood Framed Attic R 38 6,266 New Wall Wood Framed R 21 12,278 New Slab Unheated Slab -on -Grade - no insulation 5,604 Perim = 610' New Demising Wood Framed R 13 3,188 New Door Opaque Door - no insulation 24 New Floor Wood Framed w/Crawl Space R 19 627 New FENESTRATION Orientation Area(ftz) I Total Area: 1.700 Glazing Percentage: 27.1 % U-Fac SHGC Overhang Sidefins New/Altered Average U-Factor: 0.49 Exterior Shades Status Rear (SE) 84.0 0.490 0.19 10.0 none Bug Screen New Right (SW) 359.5 0.490 0.19 none none Bug Screen New Left (NE) 271.1 0.490 0.19 none none Bug Screen New Front (Nw) 410.5 0.490 0.19 none none Bug Screen New Left (E) 84.0 0.490 0.19 none none Bug Screen New Rear (S) 10.0 0.490 0.19 none none Bug Screen New Right (w) 126.0 0.490 0.19 none none Bug Screen New Rear (SE) 115.0 0.490 0.19 none none Bug Screen New Rear (SE) 240.0 0.490 0.19 20.0 none Bug Screen New HVAC SYSTEMS Qty. Heating Min. Eff Cooling Min. Eff Thermostat Status 1 Central Furnace 80% AFUE Split Air Conditioner 16.0 SEER Setback New 1 Central Furnace 80% AFUE Split Air Conditioner 16.0 SEER Setback New 1 Central Furnace 80% AFUE Split Air Conditioner 16.0 SEER Setback New HVAC DISTRIBUTION Location Heating Cooling Duct Location Duct R-Value Status HVAC lmstr Ducted Ducted Attic 8.0 New HVAC 2bed Ducted Ducted Attic 8.0 New HVAC 3 casita Ducted Ducted Attic 8.0 New WATER HEATING Qty. Type Gallons Min. Eff Distribution Status 2 Small Storage Gas 75 0.65 All Pipes Ins New Ene Pro 6.7 by EnergySoft User Number.- 6712 Run Code: 2017-03-16T12:05:06 ID: Page 17 of 49 RESIDENTIAL MEASURES SUMMARY RMS-1 Project Name Townsend Residence Building Type m Single Family ❑ Addition Alone ❑ Multi Family ❑ Existing+ Addition/Alteration Date 311612017 Project Address Lot 240 - 80-210 Via Capri La Quinta California Energy Climate Zone CA Climate Zone 15 Total Cond. Floor Area 6,266 Addition n/a # of Units 1 INSULATION Construction Type Area Cavit (fe) Special Features Status FENESTRATION Total Area: 1,700 Glazing Percenta e. 27.1 % New/Altered Average U-Factor: 0.49 Orientation Area(ft) U-Fac SHGC Overhang Sidefins Exterior Shades Status HVAC SYSTEMS Qty. Heating Min. Eff Cooling Min. Eff Thermostat Status 1 Central Furnace 80% AFUE Split Air Conditioner 16.0 SEER Setback New 2 Central Furnace 80% AFUE Split Air Conditioner 16.0 SEER Setback New 1 Central Furnace 80% AFUE Split Air Conditioner 16.0 SEER Setback New HVAC DISTRIBUTION Location Heating Duct Cooling Duct Location R-Value Status HVAC 4office Ducted Ducted Attic 8.0 New HVAC 5&6great Ducted Ducted Attic 8.0 New HVAC72nd Ducted Ducted Attic 8.0 New WATER HEATING Qty. Type Gallons Min. Eff Distribution Status Ene vPro 6.7 by Ene vSoft User Number.- 6712 Run Code: 2017-03-16T12:05:06 /D: Pape 18 of 49 2013 Low -Rise Residential Mandatory Measures Summary NOTE: Low-rise residential buildings subject to the Standards must comply with all applicable mandatory measures listed, regardless of the romphance approach used rL rceplions inav appiv. Review the respective code section for more in1arniation. Building Envelope Measures: §I 10.6(a)1: Doors and windows between conditioned and unconditioned spaces are manufactured to limit air leakage. §110.6(a)5: Fenestration products (except Feld -fabricated windows) have a label listing the certified U-Factor, certified Solar Heat Gain Coefficient SHGC , and infiltration that meets the requirements of §10-111 a . §110.7: Exterior doors and windows are weatherstripped; all joints and penetrations are caulked and sealed. §110.8(a): Insulation specified or installed meets Standards for Insulating Material. Indicate type and include on the CF2R. 110.8 i O' The thermal emittance and aged solar reflectance values of the cool roofing material meets the requirements of §110.8(i) when the installation of a cool roof is specified on the CFI R. §110.80): A radiant barrier shall have an emittance of 0.05 or less when the installation of a radiant barrier is specified on the CF1R. Minimum R-30 insulation in wood -frame ceiling; or the weighted average U-factor shall not exceed 0.031. Minimum R-19 in a § I50.0(a): rafter roof alteration. Attic access doors shall have permanently attached insulation using adhesive or mechanical fasteners. The attic access shall be gasketed to prevent air leakage. §I50.0(b): Loose fill insulation shall conform with manufacturer's installed design labeled R-value. § 150.0(c): Minimum R-13 insulation in 2x4 inch wood framing wall or have a U-factor of 0.102 or less (R-19 in 2x6 or 0.074 maximum U- factor). §I50.0(d): Minimum R-19 insulation in raised wood -frame floor or 0.037 maximum U-factor. In Climate Zones 14 and 16 a Class II vapor retarder shall be installed on the conditioned space side of all insulation in all exterior §150.0(g)1: walls, vented attics and unvented attics with air -permeable insulation. In Climate Zones 1-16 with unvented crawl spaces the earth floor of the crawl space shall be covered with a Class I or Class 11 § 150.0(g)2: vapor retarder. In a building having a controlled ventilation crawl space, a Class I or Class II vapor retarder shall be placed over the earth floor of § 150.0(g)3: the crawl space to reduce moisture entry and protect insulation from condensation, as specified in the exception to Section 150.0(d). § 150.0(1): Slab edge insulation shall: have a water absorption rate, for the insulation material alone without facings, no greater than 0.3%; have water vapor permeance rate is no greater than 2.0 perm/inch, be protected from physical damage and UV light deterioration; and when installed as part of a heated slab floor meets the requirements of § 110.8( ). 150.0 § (q)' Fenestration, including skylights, separating conditioned space from unconditioned space or outdoors shall have a maximum U- factor of 0.58; or the weighted avera e U-factor of all fenestration shall not exceed 0.58. Fireplaces, Decorative Gas Appliances and Gas Log Measures: § I50.0(e)IA: Masonry or factory -built fireplaces have a closable metal or glass door covering the entire opening of the firebox. § 150.0(e)] B: Masonry or factory -built fireplaces have a combustion outside air intake, which is at least six square inches in area and is equipped with a readily accessible, operable, and tight -fitting damper or a combustion -air control device. §I50.0(e)I C: Masonry or factory -built fireplaces have a flue damper with a readily accessible control. § 150.0(e)2: Continuous burning pilot lights and the use of indoor air for cooling a firebox jacket, when that indoor air is vented to the outside of the building, are prohibited. Space Conditioning, Water Heating and Plumbing System Measures: §110.0-§110.3: HVAC equipment, water heaters, showerheads, faucets and all other regulated appliances are certified to the Energy Commission. §I 10.3(c)5: Water heating recirculation loops serving multiple dwelling units meet the air release valve, backflow prevention, pump isolation valve, and recirculation loop connection requirements of §I 10.3(c)5. Continuously burning pilot lights are prohibited for natural gas: fan -type central furnaces, household cooking appliances (appli- §110.5: ances without an electrical supply voltage connection with pilot lights that consume less than 150 Btu/hr are exempt), and pool ands a heaters. §150.0(h)l: Heating and/or cooling loads are calculated in accordance with ASHRAE, SMACNA or ACCA using design conditions specified in § I50.0(h)2. §I50.0(h)3A: Installed air conditioner and heat pump outdoor condensing units shall have a clearance of at least five feet from the outlet of any dryer vent. § 150.0(i): Heating systems are equipped with thermostats that meet the setback requirements of § 110.2(c). §150.OQ)lA: Storage gas water heaters with an energy factor equal to or less than the federal minimum standards shall be externally wrapped with insulation having an installed thermal resistance of R-12 or greater. §I50.00)1B: Unfired hot water tanks, such as storage tanks and hnckup storage tanks for solar water -heating systems, have R-12 external insulation or R-16 internal insulation where the internal insulation R-value is indicated on the exterior of the tank. For domestic hot water system piping, whether buried or unburied: the first 5 fcut of hot and cold water pipes from the storage tank, all piping with a nominal diameter of 3/4 inch or larger, all piping associated with a domestic hot water recirculation system § 150.0Q)2A: regardless of the pipe diameter, piping from the heating source to storage tank or between tanks, piping buried below grade, and all hot water pipes from the heating source to kitchen fixtures must be insulated according to the requirements of TABLE 120.3- A. § 150.00)2B: All domestic hot water pipes that are buried below grade must be installed in a water proof and non -crushable casing or sleeve that allows for installation, removal, and replacement of the enclosed pipe and insulation. 2013 Low -Rise Residential Mandatory Measures Summary §I50.0(j)2C: Pipe for cooling system lines shall be insulated as specified in §150.00)2A. Piping insulation for steam and hydronic heating systems or hot waters stems with pressure > 15 psi , shall meet the requirements in TABLE 120.3-A. 150.00)3: Insulation is protected from damage, including that due to sunlight, moisture, equipment maintenance, and wind. Insulation exposed to weather shall either be rated for outdoor use or installed with a cover suitable for outdoor service. For § 150.00)3A: example, protected by aluminum, sheet metal, painted canvas, or plastic cover. Cellular foam insulation protected as specified or aimed with coating that is water retardant and provides shielding from solar radiation that degrades the material. Insulation covering chilled water piping and refrigerant suction piping located outside the conditioned space shall have a Class I §150.00)3B: or Class II vapor retarding facing, or the insulation shall be installed at the thickness that qualifies as a Class I or Class II vapor retarder. Systems using gas or propane water heaters to serve individual dwelling units shall include: a 120V electrical receptacle within 3 feet of the water heater; a Category III or IV vent, or a Type B vent with straight pipe between the outside termination and the § I50.0(n)l : space where the water heater is installed; a condensate drain that is no more than 2 inches higher than the base of the installed water heater, and allows natural draining without pump assistance; and a gas supply line with a capacity of at least 200,000 Btu/hr. § I50.0(n)2: Recirculating loops serving multiple dwelling units shall meet the requirements of § 110.3(c)5. § 150.0(n)3: Solar water -heating systems and collectors shall be certified and rated by the Solar Rating and Certification Corporation (SRCC) or by a testing agency approved by the Executive Director. Ducts and Fans Measures: All air -distribution system ducts and plenums installed are sealed and insulated to meet the requirements of CMC §601.05 §602.0, §603.0, §604.0, §605.0 and ANSI/SMACNA-006-2006 HVAC Duct Construction Standards Metal and Flexible 3rd Edition. Supply -air and return -air ducts and plenums are insulated to a minimum installed level of R-6.0 (or higher if required by CMC §605.0) or enclosed entirely in directly conditioned space as confirmed through field verification and diagnostic testing (RA3.1.4.3.8). Connections of metal ducts and inner core of flexible ducts are mechanically fastened. Openings shall be sealed § I50.0(m)1: with mastic, tape, or other duct -closure system that meets the applicable requirements of UL 181, UL 181A, or UL 181B or aerosol sealant that meets the requirements of UL 723. If mastic or tape is used to seal openings greater than inch, the combination of mastic and either mesh or tape shall be used. Building cavities, support platforms for air handlers, and plenums defined or constructed with materials other than sealed sheet metal, duct board or flexible duct shall not be used for conveying conditioned air. Building cavities and support platforms may contain ducts. Ducts installed in cavities and support platforms shall not be compressed to cause reductions in the cross -sectional area of the ducts. Factory -Fabricated Duct Systems shall comply with specified requirements for duct construction, connections, and closures; joints § I50.0(m)2: and seams of duct systems and their components shall not be sealed with cloth back rubber adhesive duct tapes unless such tape is used in combination with mastic and draw bands. I § I 50.0(m)3-6: Field -Fabricated Duct Systems shall comply with requirements for: pressure -sensitive tapes, mastics, sealants, and other re uiremcnts specified for duct wmstruclion; duct insulation R-value ratings; duct insulation thickness; and duct labaalin . § 150.0(m)7: All fan systems that exchange air between the conditioned space and the outside of the building must have backdraft or automatic dampers. § 150.0(m)8.: Gravity ventilating systems serving conditioned space have either automatic or readily accessible, manually operated dampers exce t combustion inlet and outlet air openings and elevator shaft vents. Insulation shall be protected from damage, including that due to sunlight, moisture, equipment maintenance, and wind but not § 150.0(m)9: limited to the following: insulation exposed to weather shall be suitable for outdoor service. For example, protected by aluminum, sheet metal, painted canvas, or plastic cover. Cellular foam insulation shall be protected as above or painted with a coating that is water retardant and provides shielding from solar radiation. § 150.0(m)10: Flexible ducts cannot have porous inner cores. When space conditioning systems use forced air duct systems to supply conditioned air to an occupiable space, the ducts shall be §I50.0(m)11: sealed and duct leakage tested, as confirmed through field verification and diagnostic testing, in accordance with Reference Residential Appendix RA3. Mechanical systems that supply air to an occupiable space through ductwork exceeding 10 feet in length and through a thermal §I50.0(m)12: conditioning component, except evaporative coolers, shall be provided with air filter devices that meet the requirements of § I50.0(m)12. Space conditioning systems that utilize forced air ducts to supply cooling to an occupiable space shall have a hole for the placement of a static pressure probe (HSPP), or a permanently installed static pressure probe (PSPP) in the supply plenum. The §150.0(m)l3: space conditioning system must also demonstrate airflow_ 350 CFM per ton of nominal cooling capacity through the return grilles, and an air -handling unit fan efficacy < 0.58 W/CFM as confirmed by field verification and diagnostic testing, in accordtutee with Reference Residential Appendix RA3. Zonally controlled central forced air cooling systems shall be capable of simultaneously delivering, in every zonal control mode, §150.0(m)15: an airflow from the dwelling, through the air handler fan and delivered to the dwelling, of> 350 CFM per ton of nominal cooling capacity, and operating at an air -handling unit fan efficacy of < 0.58 W/CFM as confirmed by field verification and diagnostic testing, in accordance with Reference Residential Appendix RA3. All dwelling units shall meet the requirements of ASHRAE Standard 62.2. Neither window operation nor continuous operation of § 150.0(o): central forced air system air handlers used in central fan integrated ventilation systems are permissible methods of providing the Whole Buildin Ventilation. 150.0(0)] A: Whole Building Ventilation airflow shall be confirmed through field verification and diagnostic testing, in accordance with Reference Residential ApRendix RA3. Pool and Spa Heating Systems and Equipment Measures: Any pool or spa heating system shall be certified to have: a thermal efficiency that complies with the Appliance Efficiency § 110.4(a): Regulations; an on -off switch mounted outside of the heater that allows shutting off the heater without adjusting the thermostat setting; a ermancnt weatherproof plate or card with operating instructions; and shall not use electric resistance heating. 2013 Low -Rise Residential Mandatory Measures Summary § 110.4(b)1; Any pool or spa lieating equipment shall be installed with at least 36 inches of pipe between filter and heater or dedicated suction and relurn lines, or built-lt connections for future solar heating. § 110.4(b)2: Outdoor pools or spas that have a heat pump or gas heater shall have a cover. §1 10.4(b)3: Pools shall have directional inlets that adequately mix the pool water, and a time switch that will allow all pumps to be set or pro- rantmed to run only during off peak electric demand periods.. § 110.5: Natural gas pool and spa heaters shall not have a continuous burning pilot light. § 150.0(p): Residential pool systems or equipment shall meet specified pump sizing, flow rate, piping, filters, and valve requirements. Lighting Measures: §110.9: All lighting control devices and systems, ballasts, and luminaires shall meet the applicable requirements of §110.9. §150.0(k)IA: Installed luminaires shall be classified as high -efficacy or low -efficacy for compliance with §150.0(k) in accordance with TABLE 150.0-A or TABLE 150.0-B, as applicable. § 150.0(k) I B: When a high efficacy and low efficacy lighting system are combined in a single luminaire, each system shall separately comply with the applicable revisions of §I50.0(k), The wattage and classification of permanently installed luminaires in residential kitchens shall be determined in accordance with § 150.0(k)1 C: § I30.0(c). In residential kitchens, the wattage of electrical boxes finished with a blank cover or where no electrical equipment has been installed, and where the electrical box can be used for a luminaire or a surface mounted ceiling fan, shall be calculated as 180 watts of low efficacy lighting er electrical box. §150.0(k)1D: Ballasts for fluorescent lamps rated 13 watts or greater shall be electronic and shall have an output frequency no less than 20 kHz. Permanently installed night lights and night lights integral to installed luminaires or exhaust fans shall be rated to consume no §150.0(k)1E: more than 5 watts of power per luminaire or exhaust fan as determined in accordance with §130.0(c). Night lights do not need to be controlled by vacancy sensors. §150.0(k)]F: Lighting integral to exhaust fans (except when installed by the manufacturer in kitchen exhaust hoods) shall meet the applicable requirements of §150.0(k). §I50.0(k)2A: High efficacy luminaires must be switched separately from low efficacy luminaires. § I50.0(k)2B: Exhaust fans shall be switched separately from lighting systems. § I50.0(k)2C: Luminaires shall be switched with readily accessible controls that permit the luminaires to be manually switched ON and OFF. §150.0(k)2D: Controls and equipment are installed in accordance with manufacturer's instructions. §150.0(k)2E: No control shall bypass a dimmer or vacancy sensor function if the control is installed to comply with §I50.0(k). § I50.0(k)2F: Lighting controls comply with applicable requirements of § 110.% An Energy Management Control System (EMCS) may be used to comply with dimmer requirements if. it functions as a dimmer § 150.0(k)2G: according to § 110.9; meets Installation Certificate requirements of § 130.4; the EMCS requirements of § 130.5; and all other re uirements in § 150, 0(k)2. An Energy Management Control System (EMCS) may be used to comply with vacancy sensor requirements of § I50.0(k) if: it § 150.0(k)2H: functions as a vacancy sensor according to § 110.9; meets Installation Certificate requirements of § 130.4; the EMCS requirements of §130.5. and all other requirements in §150.0(k)2. § 150.0(k)2I: A multiscene programmable controller may be used to comply with dimmer requirements of this section if it provides the functionality of a dimmer according to §110.9, and complies with all other applicable requirements in §150.0(k)2. §I50.0(k)3A: A minimum of 50 percent of the total rated wattage of permanently installed lighting in kitchens shall be high efficacy. Kitchen lighting includes all permanently installed lighting in the kitchen except internal lighting in cabinets that illuminate only § 150.0(k)3B: the inside of the cabinets. Lighting in areas adjacent to the kitchen, including but not limited to dining and nook areas, are considered kitchen lighting if they are not separately switched from kitchen lighting. Permanently installed lighting that is internal to cabinets shall use no more than 20 watts of power per linear foot of illuminated § 150.0(k)4: cabinet. §I50.0(k)5; A minimum of one high efficacy luminaire shall be installed in each bathroom; and all other lighting installed in each bathroom shall be high efficacy or controlled by vacancy sensors. §150.0(k)6: Lighting installed in attached and detached garages, laundry rooms, and utility rooms shall be high efficacy luminaires and controlled by vacancy sensors. Lighting installed in rooms or areas other than in kitchens, bathrooms, garages, laundry rooms, and utility rooms shall be high § I50.0(k)7: efficacy., or shall be controlled b either dimmers or vacancy sensors. Luminaires recessed into ceilings shall: be listed for zero clearance insulation contact (IC) by Underwriters Laboratories or other nationally recognized testing/rating laboratory; have a label that certifies that the luminaire is airtight with air leakage less than 2.0 CFM at 75 Pascals when tested in accordance with ASTM E283; be sealed with a gasket or caulk between the luminaire housing § 150.0(k)8: and ceiling, and shall have all air leak paths between conditioned and unconditioned spaces sealed with a gasket or caulk; and allow ballast maintenance and replacement without requiring cutting holes in the ceiling. For recessed compact fluorescent luminaries with ballasts to qualify as high efficacy for compliance with § 150.0(k), the ballasts shall be certified to the Energy Commission to comply with the applicable requirements in ' 110.9. For single-family residential buildings, outdoor lighting permanently mounted to a residential building or other buildings on the same lot shall be high efficacy, or may be low efficacy if it meets all of the following requirements: i. Controlled by a manual ON and OFF switch that does not override to ON the automatic actions of Items ii or iii below; and § 150.0(k)9A: ii. Controlled by a motion sensor not having an override or bypass switch that disables the motion sensor, or controlled by a motion sensor having a temporary override switch which temporarily bypasses the motion sensing function and automatically reactivates the motion sensor within 6 hours; and iii. Controlled by one of the following methods: 2013 Low -Rise Residential Mandatory Measures Summary a. Photocontrol not having an override or bypass switch that disables the photocontrol; or b. Astronomical time clock not having an override or bypass switch that disables the astronomical time clock, and which is programmed to automatically turn the outdoor lighting OFF during daylight hours; or c. Energy management control system which meets all of the following requirements: At a minimum provides the functionality of an astronomical time clock in accordance with §110.9; meets the Installation Certification requirements in §130.4; meets the requirements for an EMCS in §130.5; does not have an override or bypass switch that allows the luminaire to be always ON; and, is programmed to automatically turn the outdoor lighting OFF during daylight hours. For low-rise multifamily residential buildings, outdoor lighting for private patios, entrances, balconies, and porches; and outdoor lighting for residential parking lots and residential carports with less than eight vehicles per site shall comply with one of the §I50.0(k)9B: following requirements: i. Shall comply with §I50.0(k)9A; or ii. Shall comply with the applicable requirements in §110.9, §130.0, §130.2, §130.4, §140.7 and §141.0. § 150.0(k)9C: For low-rise residential buildings with four or more dwelling units, outdoor lighting not regulated by § 150.0(k)9B or 150.0(k)9D '130.4, shall comply with the applicable requirements in.§ 110.9, §130.0, §130.2, §140.7 and §141.0. § 150.0(k)9D: Outdoor lighting for residential parking lots and residential carports with a total of eight or more vehicles per site shall comply '130.2, '130.4, with the applicable requirements in §110.9, § 130.0 §140.7 and § 141.0. §I50.0(k)10: Internally illuminated address signs shall comply with §140.8; or shall consume no more than 5 watts of power as determined ' according to 130.0(c). § I50.0(k)11: Lighting for residential parking garages for eight or more vehicles shall comply with the applicable requirements for nonresidential garages in §110.9, §130.0, §130.1, §130.4, §140.6, and §141.0. In a low-rise multifamily residential building where the total interior common area in a single building equals 20 percent or less of § I 50.0(k) I 2A: the floor area, permanently installed lighting for the interior common areas in that building shall be high efficacy luminaires or controlled by an occupant sensor. In a low-rise multifamily residential building where the total interior common area in a single building equals more than 20 percent of the floor area, permanently installed lighting in that building shall: §150.0(k)12B: i. Comply with the applicable requirements in §110.9, §130.0, §130.1, §140.6 and §141.0; and ii. Lighting installed in corridors and stairwells shall be controlled by occupant sensors that reduce the lighting power in each space by at least 50 percent. The occupant sensors shall be capable of turning the light fully On and Off from all designed paths of ingress and egress. Solar Ready Buildings: Single family residences located in subdivisions with ten or more single family residences and where the application for a §110.10(a)l: tentative subdivision map for the residences has been deemed complete, by the enforcement agency, on or after January 1, 2014, shall comply with the requirements of § 110.10(b) through §110.10(e). § 110.10 a)2: Low-rise multi -family buildings shall:com ly with the requirements of Q 110.10(h) through § 110.10(d). The solar zone shall have a minimum total area as described below. The solar zone shall comply with access, pathway, smoke ventilation, and spacing requirements as specified in Title 24, Part 9 or other Parts of Title 24 or in any requirements adopted by a local jurisdiction. The solar zone total area shall be comprised of areas that have no dimension less than 5 feet and are no less than 80 square feet each for buildings with roof areas less than or equal to 10,000 square feet or no less than 160 square feet each for §I 10.10(b)1: buildings with roof areas greater than 10,000 square feet. For single family residences the solar zone shall be located on the roof or overhang of the building and have a total area no less than 250 square feet. For low-rise multi -family buildings the solar zone shall be located on the roof or overhang of the building or on the roof or overhang of another structure located within 250 feet of the building or on covered parking installed with the building rn'cct and have a total area no less than 15 2.Ecent of the total roof area of the building cxcluding any skylight area. § 110.10(b)2: All sections of the solar zone located on steep -sloped roofs shall be oriented between 110 degrees and 270 degrees of true north. §I 10.10(b)3A: No obstructions, including but not limited to, vents, chimneys, architectural features, and roof mounted equipment, shall be located in the solar zone. Any obstruction, located on the roof or any other part of the building that projects above a solar zone shall be located at least twice § 110.10(b)3B: the distance, measured in the horizontal plane, of the height difference between the highest point of the obstruction and the horizontal projection of the nearest point of the solar zone, measured in the vertical plane. § 110.10(b)4: For areas of the roof designated as solar zone, the structural design loads for roof dead load and roof live load shall be clearly indicated on the construction documents. The construction documents shall indicate: a location for inverters and metering equipment and a pathway for routing of conduit § 110.10(c): from the solar zone to the point of interconnection with the electrical service (for single family residences the point of interconnection will be the main service panel); a pathway for routing of plumbing from the solar zone to the water -heating system. A copy of the construction documents or a comparable document indicating the information from § 110.10(b) through § 110.10(c) § 110.10(d): shall be provided to the occupant. §I 10.10(e)1: The main electrical service panel shall have a minimum busbar rating of 200 amps. The main electrical service panel shall have a reserved space to allow for the installation of a double pole circuit breaker for a § 110.10(e)2: future solar electric installation. The reserved space shall be: positioned at the opposite (load) end from the input feeder location or main circuit location, and permanently marked as "For Future Solar Electric", HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name Townsend Residence Date 3/16/2017 5vstf-::n cName HVAC 1 mstr Floor Area 1,414 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL CFM Total Room Loads 773 Return Vented Lighting Return Air Ducts Return Fan Ventilation 0 Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COOLING PEAK COIL HTG. PEAK Heating System Sensible Latent CFM Sensible Output perSystem 71,000 16,302 1,795 356 20,597 Total Output (Btuh) 71,000 0 Output Btuh/s ft 50.2 768 786 Cooling System 0 0 Output perSystem 35,500 0 0 0 0 Total Output Btuh 35,500 0 1,795 0 Total Output (Tons) 3.0 768 786 Total Output (Btuh/sgft) 25.1 Total Output s ft/Ton 478.0 1 17,838 22,170 Air System CFM perSystem 1,200 HVAC EQUIPMENT SELECTION Airflow cfm 1,200 new HVAC 26,858 3,547 71.000 Airflow (cfm/s ft) 0.85 Airflow (cfm/Ton) 405.6 Outside Air %) 0•0 % Total Adjusted System Output 26,858 (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK 3,547 Aug 3 PM 71,000 Jan 1 AM Outside Air cfm/s ft 0.00 Note: values above uiven at ARI conditions HEATING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Heating Peak) 26 OF 71 OF 71 OF 127 OF Outside Air 0 cfm Supply Fan Heating Coil 1,200 cfm 71 OF F. I 126 OF ROOM 72 OF COOLING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Cooling Peak) 112/78°F 77/63OF 77/63OF 56/54OF Outside Air E F 0 cfm Supply Fan Cooling Coil 56 / 55 OF 1,200 cfm 47.1 % ROOM 77 / 63 OF 76 / 62 IF EnergyPro 6.7 by EnergySoR User Number: 6712 RunCode: 2017-03-16T12:05:06 /D: Page 23 of 49 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name Townsend Residence Date 3/16/2017 System Name HVAC 2bed f=l or Area 956 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL CFM Total Room Loads 610 Return Vented Lighting Return Air Ducts Return Fan Ventilation o Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COOLING PEAK COIL HTG. PEAK Heating System Sensible Latent CFM Sensible 15,03", Output per System 71,000 13,237 1,213 274 Total Output (Btuh) 71,000 Ia Output Btuh/s ft 74.3 624 6uII Cooling System 0 0 Output perSystem 35,500 0 0 o 0 Total Output Btuh 35,500 0 1,213 0 Total Output Tons 3•0 624 608 Total Output Btuh/s ft 37.1 Total Output s ft/Ton 323.2 14,485 17,156 Air System CFM per System 1,200 HVAC EQUIPMENT SELECTION Airflow cfm 1,200 new HVAC 27,268 2,925 71.000 Airflow cfm/s ft 1.26 Airflow cfm/Ton 405.6 Outside Air (%) 0.0 % Total Adjusted System Output (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK 27,268 2,925 71,000 Jan 1 AM Outside Air cfmis ft 0.00 ,Note: values above given at ARI conditions Aug 3 PM HEATING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Heating Peak) 26 OF 72 OF 72 OF 127 OF Outside Air Ar- 0 cfm Supply Fan Heating Coil 1,200 cfm 72 OF 127 OF ROOM 72 OF l COOLING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Cooling Peak) 112/78OF 76/62OF 76/62OF 55/54OF Outside Air 0 cfm Supply Fan Cooling Coil 1,200 cfm 76/62OF 56 154 OF 45.8 % ROOM 76/62OF i Eno rgyPm 6.7 by Eno rgySoft User Number: 6712 Run Code: 2017-03-16T12:05:06 ID: Page 24 of 49 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name ownsend Residence Date 3/16/2017 System Name HVAC 3 casita Floor Area 563 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL I CFM Total Room Loads 566 Return Vented Lighting Return Air Ducts Return Fan Ventilation 0 Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COOLING PEAK COIL HTG. PEAK Heating System Sensible Latent CFM Sensible Output perSystem 71,000 12,493 715 278 16,172 Total Output Btuh 71.000 0 Output Btuh/s ft 126.1 589 617 Cooling System 0 0 Output per System 35,500 0 0 0') L, Total Output Btuh 35,500 0 715 0 617 17,406 Total Output (Tons) 3•0 589 Total Output (Btuh/sgft) 63.1 Total Output s ft/Ton) 190.3 13,670 Air System CFM perSystem 1,200 HVAC EQUIPMENT SELECTION Airflow cfm 1,200 new HVAC 27,642 2,393 71,000 Airflow, cfmis ft) 2.13 Airflow cfm/Ton) 405.6 Outside Air %) 0.0 % Total Adjusted System Output (Adjusted for Peak Design conditions) I TIME OF SYSTEM PEAK 27,642 2.393 71,000 Jan 1 AM Outside Air cfmis ft 0.00 Note: values above given at ARI conditions Aug 3 PM HEATING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Heating Peak) 26 OF 72 OF 72 OF 127 OF Outside Air 0 cfm Supply Fan Heating Coil 1,200 cfm 72 OF 127 OF ROOM In 72 OF COOLING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Cooling Peak 112/78°F 76/62OF 76/62OF 55/54OF o Outside Air sr 0 cfm Supply Fan Cooling Coil 1,200 cfm 76/62OF 55 / 54 OF 44.7 % ROOM 76/62OF EnergyPro 6.7 by Energy5oft User Number: 6712 RunCode: 2017-03-16T12:05:06 ID: Page 25 of 49 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name Townsend Residence Date 3/16/2017 System Name HVAC 4office Floor Area 1,044 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL CFM Total Room Loads 750 Return Vented Lighting Return Air Ducts Return Fan Ventilation 0 Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COOLING PEAK COIL HTG. PEAK Heating System Sensible Latent CFM Sensible Output perSystem 71,000 16,057 1,325 367 21,200 Total Output (Btuh) 71,000 0 Output Btuhls ft 68.0 757 809 Cooling System 0 0 Output perSystem 35,500 0 0 0 0 Total Output Btuh 35.500 0 1,325 0 Total Output (Tons) 3-0 757 809 Total Output (Btuh/sgft) 34-0 Total Output s ftlTon 352.9 17,570 22,818 Air System CFM perSystem 1.200 HVAC EQUIPMENT SELECTION Airflow cfm 1,200 new HVAC 27,214 3,048 71,000 Airflow (cfmis ft) 1.15 Airflow (cfmfTon) 405.6 Outside Air (%) 0.0 % Total Adjusted System Output (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK 27,214 3,048 71,000 Jan 1 AM Outside Air cfmis ft 0.00 Note: values above given at ARI conditions Aug 3 PM HEATING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Heating Peak) 26 OF 71 OF 71 OF 127 OF Outside Air -- 0 cfm Supply Fan Heating Coil 1,200 cfm I 126 OF ROOM k' - 72 OF COOLING SYSTEM PSYCHROMETRICS Airstream Temperatures at Time of Cooling Peak) 112/78°F 77/62OF 77/62OF 55/54OF Outside Air 0 cfm Supply Fan Cooling Coil 56 / 54 OF 1,200 cfm 46.1 % ROOM 77/62OF 76/62OF EnergyPro 6.7 by EnergySoff User Number. 6712 Run Code: 2017.03.16T12:05;06 1D_ Page 26 of 49 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name Townsend Residence Date 3/16/2017 System Name HVAC 5&6great Floor Area 1,627 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 2 COIL CFM Total Room Loads 1,480 Return Vented Lighting Return Air Ducts Return Fan Ventilation 0 Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COOLING PEAK COIL HTG. PEAK Heating System Sensible Latent CFM Sensible Output perSystem 71,000 31,972 2,065 680 39,373 Total Output Btuh 142,000 0 Output Btuh/s ft 87.3 1,506 1,503 Cooling System 1 0 0 Output perSystem 35,500 0 0 0 0 Total Output Btuh 71,000 0 2,065 0 Total Output Tons 5.9 1,506 1,503 Total Output (Btuh/sqft) 43.6 Total Output s ftfTon 275.0 34,985 42,379 Air System CFM per System 1,200 HVAC EQUIPMENT SELECTION Airflow cfm 2,400 new HVAC 54,872 5,473 142,000 Airflow (cfm/s ft) 1.48 Airflow (cfm/Ton) 405.6 Outside Air %) 0•0 % Total Adjusted System Output (Adjusted for Peak Design conditions) TIME OF SYSTEM PEAK 54,872 5,473 142,000 Jan 1 AM Outside Air cfm/s ft 0.00 ;Note: values above given at ARI conditions Aug 3 PM HEATING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Heating Peak) 26 IF 71 OF 71 OF 127 IF Outside Air 0 cfm Supply Fan Heating Coil AL 2,400 cfm 71 OF y 126 OF ROOM 72 OF COOLING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Cooling Peak 112/78IF 77/62OF 77/62OF 55/54OF Outside Air -.�- 0 cfm Supply I Fan Cooling Coil 2,400 cfm 45.5 % 77 / 62 OF 56 / 54 OF ROOM 76 / 62 IF EnergyPro 6.7 by Energy5oft User Number: 6712 Run Code: 2017-03-16T12:05:06 ID: Page 27 of 49 HVAC SYSTEM HEATING AND COOLING LOADS SUMMARY Project Name Townsend Residence Date 3/16/2017 System Name HVAC72nd Floor Area 662 ENGINEERING CHECKS SYSTEM LOAD Number of Systems 1 COIL CFM Total Room Loads 436 Return Vented Lighting Return Air Ducts Return Fan Ventilation 0 Supply Fan Supply Air Ducts TOTAL SYSTEM LOAD COOLING PEAK COIL HTG. PEAK Heating System Sensible Latent CFM Sensible Output per System 71,000 9,665 840 175 10,232 Total Output Btuh 71,000 0 Output Btuh/s ft 107.3 455 391 Cooling System 0 0 Output per System 35,500 0 0 0 tl Total Output Btuh 35,500 0 840 0 Total Output (Tons) 3•0 455 391 Total Output Btuh/s ft 53.6 Total Output s ft/Ton 223.8 10,576 11,013 Air System CFM perSystem 1,200 HVAC EQUIPMENT SELECTION Airflow cfm 1,200 new HVAC 27,515 2,523 71,000 Airflow cfmis ft 1.81 Airflow cfmlTon 405.6 Outside Air % 0.0 % Total Adjusted System Output 27,515 (Adjusted for Peak Design conditions) 1 TIME OF SYSTEM PEAK 2,523 71,000 Aug 3 PM Jan 1 AM Outside Air cfmis ft 0.00 .Note: values above given at ARI conditions HEATING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Heating Peak) 26 OF 72 OF 72 OF 127 OF Outside Air 1 0 cfm Supply Fan Heating Coil AL 1,200 cfm 72 OF 127 OF ROOM a_ 72 OF COOLING SYSTEM PSYCHROMETRICS (Airstream Temperatures at Time of Cooling Peak) 112/78OF 76/62OF 76/62OF 55/54OF Outside Air -T -1 f 0 cfm Supply Fan Cooling Coil 55 / 54 OF 1,200 cfm 44.8 % ROOM 76 / 62 OF 76 / 62 °F EnergyPro 6.7 by EnergySoR User Number: 6712 Run Code. 2017-03-16T12:05:06 /D: Page 28 of 49 ROOM LOAD SUMMARY Project Name Date Townsend Residence 3/16/2017 System Name Floor Area HVAC 2bed 956 ROOM LOAD SUMMARY ROOM COOLING PEAK COIL COOLING PEAK I COIL HTG. PEAK Zone Name Room Name Mult. CFM Sensible Latent CFM Sensible I Latent I CFM I Sensible bedroom Bedrooim 2 & 3 Hallway 1 1 1 6101 13,2371 1,213 610 13,2371 1,2131 2741 15,939 PAGE TOTAL TOTAL* 610 13,237 1,213 274 15,939 610 13,237 1,213 2741 15,939 * Total includes ventilation load for zonal systems. EnergyPro 6.7 by EnergySoft User Number: 6712 Run Code: 2017-03-16T12:05:06 ID: Page 30 of 49 E �l ROOM LOAD SUMMARY Project Name Date Townsend Residence 311612017 System Name Floor Area HVAC 3 casifa 563 ROOM LOAD SUMMARY ROOM COOLING PEAK Zone Name Room Name Mult. CFM Sensible Latent casifa casifa Bedroom 1 5661 12,493 715 PAGE TOTAL TOTAL* COIL COOLING PEAK COIL HTG. PEAK CFM Sensible I Latent CFM Sensible 566 IZ493 715 278 16,172 566 12,493 715 27,9 16,172 566 12,493 715 278 16,172 * Total includes ventilation load for zonal systems. EnergyPrp 6.7 by EnergySoft !User Number. 6712 Run Code: 2017-03-16T12:05:06 0. Page 31 of 49 I—. . ROOM LOAD SUMMARY Project Name Date Townsend Residence 311612017 System Name Floor Area HVAC 4office 1,044 ROOM LOAD SUMMARY ROOM COOLING PEAK �i� OIL COOLING PEAK COIL HTG. PEAK Zone Name Room Name Mult. CFM Sensible Latent nsible Latent CFM Sensible office Office Service Hallway 1 750 16,057 1,325 716,057 1,325 3671 21,200 PAGE TOTAL TOTAL' 750 16,057 1,325 367 21,200 750 16,0577 1,325 367 21,200 Total includes ventilation load for zonal systems. EnemvPro 6.7 by EnerovSoft User Number: 6712 Run Code: 2017-03-16T12:05:06 ID: Page 32 of 49 ROOM HEATING PEAK LOADS Project Name Townsend Residence Date 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name Master Bedroom Floor Area 1,414.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area X X X X X x x x x x x x x x x x x x x x x x x x x x x x x x x to Ceiling U-Value X X X X X x x x x x x x x x x x x x x x x x x x x x x x x x x AT *F = = _ = = = = = = = = = = = = = = = = = = 46 Btu/hr R-38 Roof(R.38.2x14.16) 1,414.0 0.0260 46 1,691 R-21 Wall (w.19.2x6.16) 2,248.0 0.0690 46 7,135 dual metal tinted.491..19 177.0 0.4900 46 3,990 Slab -On -Grade perim = 120.0 0.7300 46 4,030 "R-13 Wall 512.0 0,1020 0 0 Items shown with an asterisk (') denote conduction Infiltration:[ 1.00 X 1.064 Schedule Air Sensible Fraction through an interior surface X 1,414 X Area another room 9.00 X 0.361 Height ACH Page Total / 60 ] X AT 16,645 3,T52 TOTAL HOURLY HEAT LOSS FOR ROOM 20,597 EnergyPro 6.7 by EneWSoft User Number: 6712 Run Code: 2017-03-16T12:05:06 ID: Page 35 of 49 ROOM HEATING PEAK LOADS Project Name Date Townsend Residence 3/16/2017 ROOM INFORMATION DESIGN CONDITIONS Room Name Bedrooim 2 & 3 Hallway Floor Area 956.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area x x x x x x x x x x x X x x x x x x x x x x x x x x x x x x x to Colling U-Value x x x x x x x x x x x x X x x x x x x x x x x x x x x x x x x AT 'F = = = _ = = = = = = = = = = = = = = = = = = 46 Btu/hr R136 Roof(R.38.2x14.16) 956.0 0.0260 46 1,143 R-21 WO (W.19.2x6.16) 1,635.0 0.0690 46 51189 dual metal finteo.49I.19 190.0 0.4900 46 4,283 Slab -On -Grade perim = 83.0 0.7300 46 2.787 'R-13 Wall 478.0 0.1020 0 0 _ Items shown with an asterisk (') denote conduction Infiltration: 1.00 x 1.064 Schedule Air Sensible Fraction through an interior surface x 956 x Area another room 9.00 x 0.361 Height ACH Page Total / 60 ] x AT 13.403 = 2,536 TOTAL HOURLY HEAT LOSS FOR ROOM 15,939 EnergyPro 6.7 by Energy5oft User Number: 6712 Run Code: 2017-03-16T12:05:06 U. Page 36 of49 ROOM HEATING PEAK LOADS Project Name Townsend Residence Date 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name Casita Bedroom Floor Area 563.0 ftZ Indoor Dry Bulb Temperature 72 °F Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area X X X X X x x x x x x x x x x x x x x x x x x x x x x x x x x to Ceiling U-Value X X X X X x x x x x x x x x x x x x x x x x x x x x x x x x x AT OF c = = _ = = = = = = = = = = = = = = = = = = = = = = 46 Btu/hr R-38 Rioof(R,38.204.16) 563.0 0.0260 46 673 R-21 Wall (W. 19, 2x6.16) 1,814.0 0.0690 46 5,758 deaf metal tinted.491.19 202.0 0.4900 46 4.553 slab-Dn-Grade perim = 110.0 0.7300 46 3,694 'R-13 Wall 512.0 0.1020 0 0 Items shown with an asterisk (") denote conduction Infiltration:[ 1.00 X 1.064 Schedule Air Senslhle Fraction through an interior surface X 563 x Area another room 9.00 X 0.361 Height ACH Page Total / 60 ] X AT 14,678 = 1,494 TOTAL HOURLY HEAT LOSS FOR ROOM 16,172 EnergyPro 6. 7 by Ene y5ati' User Number: 6712 Run Code: 2017-03-16TI2:05:06 ID: Page 37 of 49 ROOM HEATING PEAK LOADS Project Name Date Townsend Residence 1 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name Office Service Hallway Floor Area 1,044.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area X X X X X X x x x x x x x x x x x x x x x x x x x x x x x x x to Celling U-Value X X X X X X x x x x x x x x x x x x x x x x x x x x x x x x x AT OF = = _ = _ = = = = = = = = = = = = = = = = = = = = = = = = 46 Btu/hr R-36 Roof(R.36.2x14.16) 1,044.0 0.0260 46 1,249 R-21 Wall (W.19.2x6.16) 2,850.5 0.0690 46 9,047 dual metal tinted, 491..19 169.5 0.4900 46 3,821 Wood Door 24.0 0.5000 46 552 Slab -an -Grade perim = 112.0 0.7300 46 3;761 "R-13 wall 512.0 0.1020 0 0 L= Items shown with an asterisk (`) denote conduction Infiltration:[ 1.00 X 1.064 Schedule Air Sensible Fraction through an interior surface X 1,044 X Area another room 9.00 X 0.361 Height ACH Page Total / 60 ] X AT 18,430 = 2,770 TOTAL HOURLY HEAT LOSS FOR ROOM 21,200 EnergyPro 6.7 by EnergySoft User Number, 6712 Run Code: 2017-03-16T12:05:06 0: Page 39 of 49 ROOM HEATING PEAK LOADS Project Name Townsend Residence Date 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name Great Room Kitchen living area Floor Area 1,627.0 ft2 Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area X X X X X X X X X X X X X X X X x x x x x x x x x x x x x x x to Ceiling U-Value X X X X X X X X X X X X X X X X x x x x x x x x x x x x x x x AT °F = = _ = = = = = = = = = = = = = = = = 46 Btu/hr R-38 Roof(R.38.2x14.16) 1,627.0 0.0260 46 1.946 R-21 Wall (W.19.2x6.16) 2,600.9 0.0690 46 8,255 dual metal Unted.49/.19 827.1 0.4900 46 18,643 Slab -On -Grade perim = 185.0 0.7300 46 6.212 R 13 Walt 512.0 0.1020 0_ 0 Items shown with an asterisk (") denote conduction Infiltration:[ 1.00 X 1.064 Schedule Air Sensible Fraction through an interior surface X 1,627 X Area another room 9.00 X 0.361 Height ACH Page Total / 60 J X ❑T 35,956 4;317 TOTAL HOURLY HEAT LOSS FOR ROOM 39,373 EnergyPro 6.7 by EnergySoR User Number: 6712 Run Code: 2017-03-16T12:05:05 ID: Page 39 of 49 ROOM HEATING PEAK LOADS Project Name Townsend Residence Date 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name 2nd floor Room Floor Area 662.0 ft' Indoor Dry Bulb Temperature 72 OF Time of Peak Jan 1 AM Outdoor Dry Bulb Temperature 26 OF Conduction Area X X X X X x x x x x x x x x x x x x x x x x x x x x x x x x x to Ceiling U-Value X X X X X x x x x x x x x x x x x x x x x x x x x x x x x x x AT OF _ = = = = = = = = = = = = = = = = = = = = = = = = = = = = = 46 Btu/hr R-38 Roof(R.38.2x14.16) 662.0 0.0260 46 792 R-21 Wall (w 19.2x6.16) 1,129.5 0.0690 46 3,585 dual metal tinted.491..19 134.5 0.4900 46 3,032 R-19 Floor CrawlSpace 627.0 0.0370 46 1,067 `R-13 Wall 662.0 0.1020 0 0 Items shown with an asterlsk (') denote conduction Infiltration:[ 1.00 X 1.064 Schedule Air Sensible Fraction through an Interior surface X 662 X Area another room 9.00 X 0.361 Height ACH Page Total / 60 J X AT 8,476 = 1,756 TOTAL HOURLY HEAT LOSS FOR ROOM 10,232 EnergyPro 6.7 by Energysoft User Number. 6712 Run Code: 2017-03.16T12:05.06 ID: Page 40 of49 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date Townsend Residence 3/16/2017 ROOM INFORMATION DESIGN CONDITIONS Room Name Master Bedroom Outdoor Dry Bulb Temperature 112 OF Floor Area 1,414.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 76 OF Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U-Factor CLTD' Btulhr R-38 Roof(R.38.2x14.16) (VV)J 1,414.0 x 0.0260 x 56.0 = 2,059 R-21 Well (W.19.2x6.16) (NE) 386.0 X 0.0690 x 29.0 = 772 R-21 Wall (W.19.2x6.16) (SE) 445.0 x 0.0690 x 31.0 = 962 R-21 Wall (W 19.2x6.16) (SV19 1,219.0 x 0.0690 x 31.0 = 2,607 R-21 Wall (W 19.2x6.16) (Nw) 198.0 X 0.0690 x 30.2 = 413 "'R-13 Wall 512.0 x 0.1020 x 0.0 = 0 x x = x x = x x� _ Page Total 6,803 Items shown with an asterisk (`) denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btulhr 4 (SE) 84.0 x 16.9 + 0.0 x 21.2 = 1,415 L (SVV) 0.0 x 16.9 + 21.0 x 21.2 = 446 K (SVV) 0.0 x 16.9 + 21.0 x 21.2 = 446 J (SM 0.0 x 16.9 + 21.0 x 21.2 = 446 3 (SVV) 0.0 x 16.9 + 24.0 x 21.2 = 509 H (SVV) 0.0 x 16.9 + 6.0 x 21.2 = 127 x + x = x + x = x + x = Page Total 3,369 Internal Gain Btulhr Occupants 4.2 Occupants x 245 Btuh/occ. = 1.039 Equipment _ 1,414 Floor Area x 0.50 w/sq ft = 2,413 Infiltration: 1.064 x 1.19 x 58.32 x 35 2,657 Air Sensible Cr-M ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 16,302 Latent Gain Btu/hr Occupants 4 2 Occupants x 155 Btuh/occ. _ 658 Infiltration: 4,771 x 1.19 x 58.32 x 0.00344 = 1,.137 Air Sensible CFM ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 658 Ene vPro 6.7 by EnerqySoft User Number: 6712 Run Code: 2017-03-16T12:05:06 ID: Page 41 of 49 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date Townsend Residence 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name Bedrooim 2 & 3 Hallway Outdoor Dry Bulb Temperature 112 OF Floor Area 956.0 ft2 Outdoor Wet Bulb Temperature 78 °F Indoor Dry Bulb Temperature 76 °F Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U-Factor CLTD' Btu/hr R-38 Rcof(R.36.2x14.16} (W) 956.0 X 0.0260 X 56.0 = 1,392 R-21 wall (W.19.2x6.16) (NE) 518.4 X 0.0690 X 29.0 = 1,037 R-21 Wall (W.19.2x6.16) (SE) 198.0 X 0.0690 X 31.0 = 424 R-21 Wal/ (W.19.2x6.16) (SW) 555.0 X 0.0690 X 31.0 = 7,187 R-21 wall (W.19.2x6.16) (NW) 363.6 X 0.0690 X 30.2 = 758 R-13 Wall 478.0 X 0.1020 X 0.0 = 0 X X = X X = X X = Page Total 4,798 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btu/hr C (NE) 0.0 X 16.9 + 45.6 X 23.0 = 1,047 a (NE) 0.0 X 16.9 + 48.0 X 23.0 = 1,102 N (SW) 0.0 X 16.9 + 6.0 X 21.2 = 127 G (SW) 0.0 X 16.9 + 25.0 X 21.2 = 531 F (NW) 0.0 X 16.9 + 6.0 X 23.0 = 138 E (NM 0.0 X 16.9 + 12.5 X 23.0 = 267 p (NM 0.0 X 16.9 + 12.5 X 23.0 = 287 C (NW) 0.0 X 16.9 + 34.4 X 23.0 = 790 X + X = Page Total 4,309 Internal Gain Btu/hr occupants 2 9 Occupants X 1 245 Btuh/occ. = 703 Equipment 95fi Floor Area X 1 0.50 w/sgft = 1,631 Infiltration: a-061 X 1.19, X X 3G 1,796 Air Sensible CFM FLA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 13,237 Latent Gain Btu/hr Occupants 2 9 Occupants X 155 Btuh/occ. = 445 Infiltration: 4,771 X 1.19 X 39.43 X 0.00344 = 769 Air Sensible CFM ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 445 EnergvPro 6.7 by EneravSoft User Number: 6712 Run Code: 2017-03-16T12:05:06 ID: Page 42 of 49 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date Townsend Residence 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name Casita Bedroom Outdoor Dry Bulb Temperature 112 OF Floor Area 563.0 ft2 Outdoor Wet Bulb Temperature 78 OF indoor Dry Bulb Temperature 76 OF Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U-Factor CLTD' Btu/hr R-38 Roof(R.38.2x14.16) (VV) 563.0 X 0.0260 X 56.0 = 820 R-21 wall (W 19.2x6.16) (N) 396.0 X 0.0690 X 23.0 = 628 R-21 wall (W.19.24.16) (E) 528.0 X 0.0690 X 33.0 = 1,202 R-21 Wall (W.19.2x6.16) (S) 386.0 X 0.0690 X 26.0 = 692 R-21 Wall (W.19.2x6.16) 504.0 X 0.0690 X 33.0 = 1,148 'R-13 wall 512.0 X 0.1020 X 0.0 = 0 X X = X X = X X = Page Total 4,491 Items shown with an asterisk (`) denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btulhr 34 (E) 0.0 X 16.9 + 48.0 X 28.1 = 050 NN (E) 0.0 X 16.9 + 30.0 X 28.1 = 844 MM (E) 0.0 X 16.9 + 6.0 X 28.1 = 169 LL (S) 0.0 X 16.9 + 10.0 X 16.9 = 169 35 (W) 0.0 X 16.9 + 48.0 X 28.1 = 1,350 KK (Vlr) 0.0 X 16.9 + 60.0 X 28.1 = 1,688 X + X = X + X = X + X = Page Total 5,57 Internal Gain Btulhr Occupants 1.7 Occupants X 245 �563 Btuh/occ. = 414 E ul meni Floor Area X 0.50 w/sgft = 961 Infiltration: 1.064 X 1.19 X 23.22 X 36 = 1,058 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 12,493 Latent Gain Btulhr Occupants 1 7 Occupants X _ 155 Btuh/occ. = 262 Infiltration: 4,771 X 1.19 X 23.22� X 0.003441 = 453 Air Sensible CFM ELA AW TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 262 Ene Pro 6.7 by EnerqySoft User Number: 6712 Run Code: 2017-03-16T12:05:06 ID: Paae 43 of 49 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date Townsend Residence 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name Office Service Hallway Outdoor Dry Bulb Temperature 112 OF Floor Area 1,044.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 76 OF I Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U-Factor CLTD' Btulhr R-38 Rcof(R. 38.2x14. 16) (W) 1,044.0 X 0.0260 X 56.0 = 1,520 R-21 Wall (W.19.2x6.16) (NE) 898.51 X 0.0690 X 29.0 = 1,798 R-21 Wall (W 19.2x6.16) (SE) 420.0 X 0.0690 X 31.0 = 898 R-21 Well (W.19.2x6.16) (SW) 876.0 X 0.0690 X 31.0 = 1,674 R-21 wall (W.19-2x6.16) (NW) 656.0 X 0.0690 X 30.2 = 1,368 Woad Door (NM 24.0 X 0.5000 X 30.2 = 363 "R-13 Wall 512.0 X 0.1020 X 0.0 = 0 X X = X X = Page Total 7,821 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btulhr AA (NE) 0.0 X 16.9 + 36.0 X 23.0 = 827 Z (NE) 0.0 X 16.9 + 25.0 X 23.0 = 574 Y (NE) 0.0 X 16.9 + 12.5 X 23.0 = 287 JJ (SW) 0.0 X 16.9 + 48.0 X 21.2 = 1,019 HH (SW) 0.0 X 16.9 + 48.0 X 21.2 = 1,019 X + X = X + X = X + X = X + X = Page Total 1 3,72 Internal Gain Btulhr Occupants 3.1 Occupants X 245 Btuh/occ = 767 Equipment 1,044 Floor Area X 0.50 w/sgft = 1,762 Infiltration: 1.064 X I X I X F 36i = 1,961 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 16,057 Latent Gain Btu/hr Occupants 31 Occupants X 155 Btuh/occ. - 485 Infiltration: 4,771 X 1.19 X 43.06 X 0.00344 = a40 Air Sensible CFM E A 4W TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 485 Ene Pro 6-7 by EnergySoft User Number-- 6712 Run Code: 2017-03-16T12:05:06 ID: Page 44 of 49 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date Townsend Residence 3/16/2017 ROOM INFORMATION DESIGN CONDITIONS Room Name Great Room Kitchen living area Outdoor Dry Bulb Temperature 112 OF Floor Area 1,627.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 76 °F Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U-Factor CLTD' Btulhr R-38 Roof(R.38.2x14,16) (W) 1,627.0 X 0.0260 X 56.0 = 2,369 R-21 Wall (W 19.2x6.16) (NE) 826.0 X 0.0690 X 29.0 n 1,653 R-21 wall (W.19.2x6.16) (SE) 833.0 X 0.0690 X 31.0 = 1,762 R-21 Wall (W.19.2x6.16) (SwJ 537.0 X 0.0690 X 31.0 = 1,149 R-21 wall (w.19.2x6.16) (NW) 404.9 X 0.0690 X 30.2 = 845 `R-13 Wall 512.0 X 0.1020 X 0.0 = 0 X X X X = X X = Page Total 7, 797 Items shown with an asterisk (') denote conduction through an interior surface to another room- 1 . Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btulhr U (NE) 0.0 X 16.9 + 6.01 X 23.0 = 138 T (NE) 0.0 X 16.9 + 6.0 X 23.0 = 138 S (NE) 0.0 X 16.9 + 6.0 X 23.0 = 138 7 (NE) 0.0 X 16.9 + 24.0 X 23.0 = 551 X (NE) 0.0 X 16.9 + 4.0 X 23.0 = 92 W (NE) 0.0 X 16.9 + 4.0 X 23.0 = 92 V (NE) 0.0 X 16.9 + 4.0 X 23.0 = 92 6 (SE) 0.0 X 16.9 + 94.0 X 21.2 = 1,995 S (SE) 0.0 X 16.9 + 6.0 X 21.2 = 127 Page Total 3.362 Internal Gain Btulhr Occupants 49 Occupants X 245 Btuh/occ. = �77A Equipment 1,627 Floor Area X 0.50 w/sgft = Infiltration: 1.064J X 1.19 X 67.11� X 36 w 3,057 Air Sensible CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 31,972 Latent Gain Btu/hr Occupants 4 9 Occupants X 155 Btuh/occ. = 757 Infiltration: 4,771 X 7.19 X 67.11 X 0.00344 = 1,306 Air Sensible CFM ELA Aw TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 757 EnerqyPro 6.7 by EnerqySoft User Number- 6712 RunCode: 2017-03-16T12:05:06 ID: Page 45 of 49 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date Townsend Residence 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name Great Room Kitchen living area Outdoor Dry Bulb Temperature 112 OF Floor Area 1,627.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 76 OF Outdoor Dailv Ranae: 34 OF I Or)aaue Surfaces Orientation Area U-Factor CLTD' X X = X X = X X = X X = X X = X X - X X = X X = X X = Page Total Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Fenestration 5 M N P Q R 6 1 A Orientation (SE) (SE) (SE) (SE) (SE) (SE) (Svv) (NVV) (NIA0 Shaded Area X X X X X X X X X GLF + + + + + + + + + Unshaded Area X X X X X X X X X GLF = = = = = = = = = 240.0 16.9 0.0 21.2 0.0 16.9 3.0 21.2 0.0 16.9 3.0 21.2 0.0 16.9 3.0 21.2 0.0 16.9 3.0 21.2 0.0 16.9 3.0 21.2 0.0 16.9 103.0 21.2 0.0 16.9 60.0 23.0 0.0 16.9 159.1 23.0 Page Total Btulhr 01 Btulhr 4, 044 64 64 64 64 2,186 1,378 11 Internal Gain Btulhr Occu nts 4•9 Occupants X 2451 Btuh/occ. 1 E ui ment 1,627 Floor Area X 0.501. w/sgft = 2, Infiltration: 1.064 X 1.19 X 67.11 X 36 = Air 5enslble CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 31,9721 Latent Gain Btulhr Occupants 4 9 Occupants X 155 Btuh/occ. - 757 Infiltration: 4,771 X 1.19 X 67.11 X 0.00344 = 1,308 Air Sensible CFM ELA 1AW I TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 7571 EnergyPro 6.7 by EneraySoff User Number.- 6712 RunCode: 2017-03-16T12:05:06 ID: Page 46 of 49 [ RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date Townsend Residence 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name Great Room Kitchen living area Outdoor Dry Bulb Temperature 112 OF Floor Area 1, 627.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 76 OF Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U-Factor CLTD� Btulhr - X X - X X = X X = X X = X X = X X = X X = X X = X X = Page Total 0 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btu/hr 73 (NM 0.01 X 16.9 + 96.0 X 23.0 = 2,204 X + X = X + X = X + X = X + X = X + X = X + X = X + X = X + X = Page Total 2.204 Internal Gain Btu/hr Occupants 49 Occupants X 245 Btuh/occ. = 7,196 E ui ment 1,627 Floor Area X 0.50 w/sgft = 2,776 Infiltration: 1.064 X 1.19 X 67.11 X 36 = 3.057 Air Sensrble CFM ELA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 31,972 Latent Gain Btulhr Occupants l4 9 Occupants X 155 Btuh/occ. = 757 Infiltration: 4,771 X 1.19 X 67.11 X 0.00344 1,308 Air Sensible CFM FAA 4W TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 757 Ene Pro 6.7 by EnerqySoft User Number.- 6712 Run Code: 2017-03-16T12:05:06 /D: Page 47 of 49 RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date Townsend Residence 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name 2nd floor Room Outdoor Dry Bulb Temperature 112 OF Floor Area 662.0 ftz Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 76 OF Outdoor Daily Range: 34 OF ❑naaue Surfaces R-38 Roof(R.38.2x14.16) R-21 Wall (W.19,2x6.16) R-21 Wall (W 19.2x&16) R-21 Wall (W.19.2x6,16) R-21 Wall (W.19.2x6.16) R-21 Wall (W.19.2x6,16) R-21 Wall (W-19.2x6.16) R-21 Wall (W.19.2x6:16) R-21 Wall (W.19.2x6.16) Orientation (IM (N) (NE) (E) (SE) (S) (SIM (IM (Nw) Area X X )( x X X X X X U-Factor X X X X X X X X X CLTD' = = = = = = = = = 662.0 0.0260 56.0 96.0 0.0690 23.0 406.0 0.0690 29.0 72.0 0.0690 33.0 128.0 0.0690 31.0 128.0 0.0690 26.0 91.5 0.0690 31.0 110.0 0.0690 33.0 98.0; 0.0690 30.2 Page Total Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration vv UU TT SS RR 42 QQ PP WW Orientation (NE) (NE) (NE) (NE) (SIM (S W) (IM (►M (NW) Area X X X X X X X X X GLF Area X X X X X X X X X GLF = = = = = = = = = 0.0 16.9 + 12.5 23.0 0.0 16.9 + 12.5 23.0 0.0 16.9 + 12.5 23.0 0.0 16.9 + + 12.5 23.0 0.0 16.9 12.5 21.2 0.0 16.9 + + + 24.0 21.2 0.0 16.9 12.0 28.1 0.0 16.9 6.0 28.1 0.0 16.9 + 30.0 23.0 Page Total Btu/hr 1 1 Btulhr 287 287 287 287 265 509 336 169 3,1 Internal Gain Btu/hr Occupants 2.0 Occupants X 245 Btuh/occ. 487 Equipment 662 Floor Area X 0.50 w/sgft = 1.130 Infiltration: i,064 X 1.19 X 27.30 X 36 = C Air Sensible CFM ELA AT I TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 9,6661 Latent Gain Btulhr Occupants 2 0 Occupants X 155 Btuh/occ. = 368 Infiltration: 4,771 X 1.19 X 27.30 X 0.00344 = 532 Air Sensible CFM ELA AVV I TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 3081 EneroVPro 6.7 by EnerovSoff User Number: 6712 Run Code: 2017-03-16T12:05:06 ID: Page 48 of 49 1 . , A RESIDENTIAL ROOM COOLING LOAD SUMMARY Project Name Date Townsend Residence 311612017 ROOM INFORMATION DESIGN CONDITIONS Room Name 2nd floor Room Outdoor Dry Bulb Temperature 112 OF Floor Area 662.0 ft2 Outdoor Wet Bulb Temperature 78 OF Indoor Dry Bulb Temperature 76 OF, Outdoor Daily Range: 34 OF Opaque Surfaces Orientation Area U-Factor CLTD' Btu/hr R-19 Floor Crawfspace 627.0 X 0.0370 X 19.0 = 441 R-13 wall 662.0 X 0.1020 X 0.0 = 0 X X = X X = X X = X X - X X - X X = X X = Page Total 441 Items shown with an asterisk (') denote conduction through an interior surface to another room. 1. Cooling Load Temperature Difference (CLTD) Shaded Unshaded Fenestration Orientation Area GLF Area GLF Btu/hr X + X = F X + X = X + X = X + X = X + X = X + X = X + X = X + X = X + X = Page Total 0 Internal Gain Btu/hr Dccu ants 2.0 Occupants X 245 Btuh/occ. 467 662 0.50 Equipment 1111 Floorrea 1,130 Infiltration: 1.064 X 1.19 X � 27.30 X 36 = 1,244 A:r Sensible Cf=f�9 CLA AT TOTAL HOURLY SENSIBLE HEAT GAIN FOR ROOM 9,665 Latent Gain Btulhr Occupants 2.0 Occupants X 155 Btuh/occ. = 306 Infiltration: 4,771 X 1.19 X 27.30 X 0.00344 = 532 Air Sensible CFM ELA Aw TOTAL HOURLY LATENT HEAT GAIN FOR ROOM 308 Enera Pro 6.7 by EnerzyySoft User Number.- 6712 Run Code: 2017-03-16T12.05:06 In: Pa a 49 of 49